View clinical trials related to Hemorrhage.
Filter by:Protamine is used after Cardiopulmonary Bypass (CPB) to reverse the anticoagulant effects of heparin and restore coagulation. Convincing evidence from in-vitro and in-vivo studies suggest that an overdose of protamine has anticoagulant effects which might lead to bleeding complications. Heparin levels usually decrease during cardiac surgery with CPB. Therefore, a protamine regimen based on the initial heparin dose before CPB might lead to overdose of protamine. In contrast, a protamine regimen based on the actual heparin concentration may avoid this condition. The investigators compare both regimens of protamine dosing in patients undergoing complex surgery with CPB and assess its effect on the amount of protamine given, markers of the coagulation system, utilization of blood products and perioperative blood loss.
The study will evaluate whether prophylactic oxytocin administered in the third stage of labor via IV infusion results in a lower mean blood loss compared to IM injection.
The aim of the study is to evaluate if there is an association between platelet inhibition and surgery-related bleeding in patients undergoing non-cardiac surgery during dual antiplatelet therapy.
Tonsillectomy (the surgical removal of the tonsils) is a commonly performed surgery in children. One risk of tonsillectomy is postoperative bleeding, and this can be more dangerous in children because their blood volume is lower than adults. Ibuprofen, a nonsteroidal anti-inflammatory medication (NSAID), is an effective pain medication. Recent guidelines, published by the American Academy of Otolaryngology, advocated use of ibuprofen after tonsillectomy. However, NSAIDs are associated with altered platelet function and a theoretical increased risk of bleeding after surgery. The investigators would like to explore the effect that ibuprofen has on postoperative bleeding, as well as validate previous studies demonstrating it is an effective pain medication after tonsillectomy.
The purpose of this study is to assess the efficacy of IV Tranexamic Acid and topical Tranexamic Acid to control post op bleeding following Coronary Artery Bypass Graft Surgery using Cardiopulmonary Bypass.
The purpose of this study was to evaluate the effect of early administration of tranexamic acid (TXA) on post partum hemorrhage caused by uterine atony after cesarean section delivery. This was a randomised, placebo controlled trial including 74 patients. The investigators included ASA1 parturients with correct haemostatic status undergoing cesarean section under spinal anesthesia. The randomization begins after the inefficacy of oxytocin injections and starting up sulprostone perfusion at the request of the surgeon. TXA Group received 10 mg/kg of tranexamic acid as induction dose within 12 minutes and 1mg/Kg/h as maintenance within the 2 following hours. Placebo Group received same volumes of normal saline. The investigators compared blood loss and transfusions in both groups.
Total knee arthroplasty is often associated with excessive postoperative bleeding due to increased fibrinolysis. Hence, the objective of the proposed of this multicentre study is to determine the peri-operative bleeding comparing the application of topical and intravenous tranexamic acid with the habitual surgical haemostasis.
Low-dose aspirin (ASA) has emerged as the most important cause of peptic ulcer bleeding worldwide. In western countries, ASA has overtaken non steroidal antiinflammatory drugs (NSAIDs) as a major cause of peptic ulcer bleeding in the elderly population [1,2]. Management of peptic ulcer bleeding in patients receiving ASA for cardiothrombotic diseases is a clinical dilemma. In a randomized trial of continuous versus interrupted ASA therapy after endoscopic treatment of peptic ulcer bleeding, patients who discontinued ASA had a 10-fold increased incidence of all-cause mortality compared to those who received continuous ASA therapy. On the other hand, patients receiving continuous ASA therapy had a two-fold increased risk of early rebleeding [3]. Thus, preventing the occurrence of peptic ulcer bleeding in ASA users is important in reducing morbidity and mortality. Given the uncertain clinical utility of Helicobacter Pylori (Hp) testing in ASA users, this prospective cohort study aims to determine whether testing for Hp will have any impact on the long-term incidence of ulcer bleeding in ASA users with high ulcer risk. The investigators hypothesize that among ASA users with Hp infection and ulcer bleeding, the long-term incidence of recurrent ulcer bleeding with ASA use will be low after eradication of Hp alone.
The aim of this study is to evaluate the prophylactic effects of Ranolazine on new onset atrial fibrillation in post-operative coronary artery bypass graft and valve surgery patient population at Staten Island University hospital.
Victims of trauma with severe head injury who have bled into their brains are at high risk of developing blood clots in their legs. These blood clots can break off and travel through the bloodstream to the lungs causing death. Blood thinners can be given to patients to prevent blood clots from developing but this can leave patients at risk for additional bleeding in the brain causing further damage or death. The earlier blood thinners are started the more effective they are at preventing blood clots but some patients with severe head injury who have bled into their brains will develop further bleeding even if they do not receive blood thinners. Even though a growing body of research has shown that the majority of bleeding in the brain stops within the first 24 hours after injury and that it is safe to start blood thinners as early as 24 hours after injury, doctors are still waiting longer than 4 days to start blood thinners in these patients over concerns of worsening bleeding. In Canada, almost half of the patients with severe head injury do not receive blood thinners until at least five days after injury. Delays in starting blood thinners appear to put patients at increased risk of developing blood clots, unnecessarily. This study will compare the benefits of starting low-molecular weight heparin (LMWH), a type of blood thinner, early (less than 48 hours) versus the current practice (waiting until the 5th day after being injured) in preventing blood clots in patients who have bled into their brains after severe head injury. The investigators believe that starting LMWH earlier will be more effective in preventing blood clots without worsening any bleeding when compared to waiting to start blood thinners. This study is called OPTTTICH (Optimal Timing of Thromboprophylaxis in Traumatic IntraCranial Haemorrhage) and will be the largest Canadian investigator-initiated randomized control trial on blood clot prevention in trauma patients with severe head injury who have bled into their brains.